Beispiel #1
0
int DecodeTCP(ThreadVars *tv, DecodeThreadVars *dtv, Packet *p, uint8_t *pkt, uint16_t len, PacketQueue *pq)
{
    StatsIncr(tv, dtv->counter_tcp);

    if (unlikely(DecodeTCPPacket(tv, p,pkt,len) < 0)) {
        SCLogDebug("invalid TCP packet");
        p->tcph = NULL;
        return TM_ECODE_FAILED;
    }

#ifdef DEBUG
    SCLogDebug("TCP sp: %" PRIu32 " -> dp: %" PRIu32 " - HLEN: %" PRIu32 " LEN: %" PRIu32 " %s%s%s%s%s",
        GET_TCP_SRC_PORT(p), GET_TCP_DST_PORT(p), TCP_GET_HLEN(p), len,
        TCP_HAS_SACKOK(p) ? "SACKOK " : "", TCP_HAS_SACK(p) ? "SACK " : "",
        TCP_HAS_WSCALE(p) ? "WS " : "", TCP_HAS_TS(p) ? "TS " : "",
        TCP_HAS_MSS(p) ? "MSS " : "");
#endif

    /* Flow is an integral part of us */
    FlowHandlePacket(tv, dtv, p);

    return TM_ECODE_OK;
}
Beispiel #2
0
/**
 * \brief Convert IP packet to an IDMEF alert (RFC 4765).
 * This function stores the alert SID (description and reference),
 * the payload of the packet, and pre-processed data.
 *
 * \return 0 if ok
 */
static int PacketToData(const Packet *p, const PacketAlert *pa, idmef_alert_t *alert, AlertPreludeCtx *ctx)
{
    SCEnter();

    if (unlikely(p == NULL))
        SCReturnInt(0);

    AddIntData(alert, "snort_rule_sid", pa->s->id);
    AddIntData(alert, "snort_rule_rev", pa->s->rev);

    if (ctx->log_packet_header) {
        if ( PKT_IS_IPV4(p) )
            PacketToDataV4(p, pa, alert);

        else if ( PKT_IS_IPV6(p) )
            PacketToDataV6(p, pa, alert);

        if ( PKT_IS_TCP(p) ) {
            AddIntData(alert, "tcp_seq", TCP_GET_SEQ(p));
            AddIntData(alert, "tcp_ack", TCP_GET_ACK(p));

            AddIntData(alert, "tcp_off", TCP_GET_OFFSET(p));
            AddIntData(alert, "tcp_res", TCP_GET_X2(p));
            AddIntData(alert, "tcp_flags", TCP_GET_FLAGS(p));

            AddIntData(alert, "tcp_win", TCP_GET_WINDOW(p));
            AddIntData(alert, "tcp_sum", TCP_GET_SUM(p));
            AddIntData(alert, "tcp_urp", TCP_GET_URG_POINTER(p));
            if (p->tcpvars.ts_val != 0) {
                AddIntData(alert, "tcp_tsval", TCP_GET_TSVAL(p));
            }
            if (p->tcpvars.ts_ecr != 0) {
                AddIntData(alert, "tcp_tsecr", TCP_GET_TSECR(p));
            }
            if (p->tcph != NULL) {
                AddIntData(alert, "tcp_wscale", TCP_GET_WSCALE(p));
            }
            if (TCP_HAS_SACKOK(p)) {
                AddIntData(alert, "tcp_sackok", TCP_GET_SACKOK(p));
            }
            if (TCP_HAS_SACK(p)) {
                AddIntData(alert, "tcp_sack_cnt", TCP_GET_SACK_CNT(p));
            }
            AddIntData(alert, "tcp_hlen", TCP_GET_HLEN(p));
        }

        else if ( PKT_IS_UDP(p) ) {
            AddIntData(alert, "udp_len", UDP_GET_LEN(p));
            AddIntData(alert, "udp_sum", UDP_GET_SUM(p));
        }

        else if ( PKT_IS_ICMPV4(p) ) {
            AddIntData(alert, "icmp_type", ICMPV4_GET_TYPE(p));
            AddIntData(alert, "icmp_code", ICMPV4_GET_CODE(p));
            AddIntData(alert, "icmp_sum", ICMPV4_GET_RAW_CSUM(p));

        }

        else if ( PKT_IS_ICMPV6(p) ) {
            AddIntData(alert, "icmp_type", ICMPV6_GET_TYPE(p));
            AddIntData(alert, "icmp_code", ICMPV6_GET_CODE(p));
            AddIntData(alert, "icmp_csum", ICMPV6_GET_RAW_CSUM(p));
        }
    }

    if (ctx->log_packet_content)
        AddByteData(alert, "payload", p->payload, p->payload_len);

    SCReturnInt(0);
}